Two-cluster approach to the properties of one- and two-neutron-halo nuclei
Abstract
In this work, we present a new approximate method for obtaining simple wave functions for the ground state of exotic nuclei with a neutron halo. We model the system as a two-cluster structure, treating the core and halo as inert objects. The relative wave function is expressed as a combination of simple harmonic oscillator states, with the oscillator parameter determined from the separation energy. Since these wave functions lack the expected exponential decay, we introduce a simple multiplicative renormalization factor based on the nuclear root mean square radius. This approach, combining oscillator wave functions and the renormalization factor, is then applied to calculate dipole strength distributions dB(E1,)/d and Coulomb dissociation cross section dσ(E1,)/d for several 1n- and 2n-halo nuclei. The results show excellent agreement with the available experimental data.
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